Extending Peripheral Retinal Vascularization in Retinopathy of Prematurity Through Regulation of VEGF Signaling

Abstract

Experimental studies provide evidence that regulation of VEGF receptor-2 signaling in endothelial cells orders cell divisions and extends developmental angiogenesis while inhibiting pathologic intravitreal angiogenesis and has relevance to retinopathy of prematurity (ROP). We tested the hypothesis that intravitreal anti-VEGF would extend vascularization into peripheral avascular retina in human type 1 ROP compared with controls. Retrospective, nonrandomized treatment comparison. The study was conducted at an academic institution, with the study population comprising all premature infants screened for ROP from January 2019 through December 2022. The experimental group included type 1 ROP treated with bilateral bevacizumab (0.25 mg) and had adequate fundus imaging by a certified ophthalmic photographer at 2 examinations: within 2 weeks of treatment and 1-3 weeks later. A control group included gestational age- and birthweight-matched infants with ROP less severe than type 1 ROP. The main outcome measure was extent of temporal retinal vasculature measured by a masked analyst between treated and control eyes. Paired and nonpaired t tests were used. Of 382 screened infants, 34 developed type 1 ROP; 11 comprised the experimental group and 11 the control group. At baseline, there was a trend toward shorter temporal vascular extent in treatment compared with control groups (3667±547 vs 4262±937 pixels, 95% CI -1277, 88; P = .084) but no difference between groups at follow-up (P = .945). Vascular extension was significantly greater in the treatment than control (872±521 vs 253±151 pixels, 95% CI 262, 977; P = .003), showing catch-up growth. This clinical evidence supports laboratory-based studies that regulation of VEGF using an intravitreal anti-VEGF agent increases developmental angiogenesis into the peripheral avascular retina while inhibiting pathologic intravitreal angiogenesis in ROP.